Your search keyword '"Wang, William Yang"' showing total 5 results

1. Emergent human-like covert attention in feedforward convolutional neural networks

Author

Srivastava, Sudhanshu, Wang, William Yang, and Eckstein, Miguel P.

Published

2024

2. Automatic detection of speaker state: Lexical, prosodic, and phonetic approaches to level-of-interest and intoxication classification

Author

Wang, William Yang, Biadsy, Fadi, Rosenberg, Andrew, and Hirschberg, Julia

Published

2013

3. Efficient inference and learning in a large knowledge base: Reasoning with extracted information using a locally groundable first-order probabilistic logic

Author

Wang, William Yang, Mazaitis, Kathryn, Lao, Ni, and Cohen, William W.

Published

2015

4. Vision-Language Navigation Policy Learning and Adaptation.

Author

Wang, Xin, Huang, Qiuyuan, Celikyilmaz, Asli, Gao, Jianfeng, Shen, Dinghan, Wang, Yuan-Fang, Wang, William Yang, and Zhang, Lei

Subjects

REINFORCEMENT learning, PSYCHOLOGICAL feedback, NATURAL languages, LEARNING

Abstract

Vision-language navigation (VLN) is the task of navigating an embodied agent to carry out natural language instructions inside real 3D environments. In this paper, we study how to address three critical challenges for this task: the cross-modal grounding, the ill-posed feedback, and the generalization problems. First, we propose a novel Reinforced Cross-Modal Matching (RCM) approach that enforces cross-modal grounding both locally and globally via reinforcement learning (RL). Particularly, a matching critic is used to provide an intrinsic reward to encourage global matching between instructions and trajectories, and a reasoning navigator is employed to perform cross-modal grounding in the local visual scene. Evaluation on a VLN benchmark dataset shows that our RCM model significantly outperforms baseline methods by 10 percent on Success Rate weighted by Path Length (SPL) and achieves the state-of-the-art performance. To improve the generalizability of the learned policy, we further introduce a Self-Supervised Imitation Learning (SIL) method to explore and adapt to unseen environments by imitating its own past, good decisions. We demonstrate that SIL can approximate a better and more efficient policy, which tremendously minimizes the success rate performance gap between seen and unseen environments (from 30.7 to 11.7 percent). [ABSTRACT FROM AUTHOR]

Published

2021

5. SafeRoute: Learning to Navigate Streets Safely in an Urban Environment.

Author

Levy, Sharon, Xiong, Wenhan, Belding, Elizabeth, and Wang, William Yang

Subjects

REWARD (Psychology), URBAN ecology (Sociology), REINFORCEMENT learning, URBAN planning, DEEP learning, STREETS

Abstract

Recent studies show that 85% of women have changed their traveled routes to avoid harassment and assault. Despite this, current mapping tools do not empower users with information to take charge of their personal safety. We propose SafeRoute, a novel solution to the problem of navigating cities and avoiding street harassment and crime. Unlike other street navigation applications, SafeRoute introduces a new type of path generation via deep reinforcement learning. This enables us to successfully optimize for multi-criteria path-finding and incorporate representation learning within our framework. Our agent learns to pick favorable streets to create a safe and short path with a reward function that incorporates safety and efficiency. Given access to recent crime reports in many urban cities, we train our model for experiments in Boston, New York, and San Francisco. We test our model on areas of these cities, specifically the populated downtown regions with high foot traffic. We evaluate SafeRoute and successfully improve over state-of-the-art methods by up to 17% in local average distance from crimes while decreasing path length by up to 7%. [ABSTRACT FROM AUTHOR]

Published

2020